High-strain-rate behavior of several types of epoxy-based composites

The mechanical behavior of several types of epoxy-matrix composites with uni-and two-directional reinforcement and one quasi-isotropic sintactic foam plastic with embedded hollow glass microspheres, subjected to dynamic loading at strain rates up to 100-1000 1/s, is studied. For fiber reinforced composites, the ultimate strength and strain increase up to 2-2.5 times relative static values while the elastic modulus along the filaments is independent of the strain rate. For a foam plastic, not only its compression strength and modulus of elasticity increase as the strain-rate increases but its fracture and the stress-strain behavior change too.